US2277557A

US2277557A - Friction clutch

Info

Publication number: US2277557A
Application number: US320258A
Authority: US
Inventors: Nutt Harold
Original assignee: Borg Warner Corp
Current assignee: Borg Warner Corp
Priority date: 1940-02-23
Filing date: 1940-02-23
Publication date: 1942-03-24
Anticipated expiration: 1959-03-24

Description

Patented Mar. 24, 1942 FRICTION CLUTCH Harold Nutt, Chicago, Ill., assigner to Borg- Warner Corporation, Chicago, Ill., a corpora- `tion of Illinois Application February 23, 1940, Serial No. 320,258

3 Claims.

This invention relates to friction clutches of the type wherein the drive from the clutch cover to the pressure plate istransmitted through a flexible link, one end of which is secured to the pressure plate and the other end of which is secured to the cover, the flexibility of the link allowing the pressure plate to move axially in order to effect clutch engagement. One of the objects of the invention is to provide a clutch embodying an improved drive of this type, wherein the link is arranged in such a manner that it will transmit maximum torque without bending or buckling under the driving strain or as a result of radial expansion of the plate under heat developed by the friction faces.

To this end, the invention contemplates in general the employment of a driving link in the form of a straight flexible metal strap, of spring steel or the like, arranged in a chordal position with respect to a rcircumference of the axis of rotation, with its leading end attached to the driving member and its trailing end attached to the pressure plate so that the drive is transmitted through it in the form of a straight chordal pull along its longitudinal axis.

The invention contemplates a flexible drive arrangement which combines maximum torque transmitting strength with maximum lsimplicity and minimum cost of construction. It is particularly desired to provide such a exible drive arrangement in a friction clutch of maximum compactness in an axial direction. The invention further aims to embody an improved flexible drive arrangement of the type specified in a friction clutch wherein the lever fulcrum or reaction member is of a preferred type, i. e., in the form of an annular cover, roughly channelshaped in cross-section, which cooperates with the flywheel of the clutch to form an annular space in which the pressure plate is enclosed.

These objects are attained by providing an arrangement wherein the driving links are accommodated within the annular coverbetween the rear wall thereof and the rear side of the pressure plate. Being arranged chordally, the link may be of ample length and still be accommodated in the cover without crowding. In this position, the link is enclosed and protected, and may be connected directly to the pressure plate at one end and to the cover plate at the other end by simple and inexpensive attaching means, such as rivets or bolts, and without the use of intervening brackets or the like.

Another feature of the invention, directed to the attainment of axial compactness, is the arrangement of the driving links in areas removed from those occupied bythe operating levers of the clutch. This may be arrived at by centering the links circumferentially between the radial axes of adjacent pairs of levers, or by locating the links radially beyond the outer ends of the levers. `Thus `the levers yand the driving links may be disposed in the same plane of rotation, making for axial compactness.

Another object of the invention is to provide an improved flexible drive arrangement of the 'type described above, in a friction clutch embodying a cover which is formed with peripheral arched regions providing, between the cover and the flywheel, a plurality of Ventilating openings. for inducing a circulation of cooling air through the'clutch, and also giving access to the pressure plate, permitting balancing operations subsequent to the assembly of ther clutch. At the same time, the invention aims to maintain maximum strength in the cover. These objects are attained by arranging the driving links circumferentially between the arched regions of the cover, making it possible to drill into the edge of the pressure plate for balancing operation without any danger of damaging the attaching elements of the flexible driving link.

Other objects, the advantages and uses of the invention willbecome more apparent after reading the following specication and claims, and after consideration of the drawing forming a part of the specification, wherein:

. Fig 1 isa plan view of a portion of a friction clutch embodying the invention;

Fig.'2 is a sectional View thereof taken as indicated by the line 2--2 of Fig. 1;

Fig. 3 is a sectional view thereof taken as indicated by the line 3 3 of Fig. 1;

Fig. 4 is a, side elevation taken as indicated by the line 4-4 ofFig. 1;

Fig. 5 is a side elevation of the driving link in its unstressed state.

As an example of one form in which the invention may'be embodied, I have shown in the drawing a clutch of the type employed in motor vehicles, including a cover I0 attached to the flywheel II of the vehicle engine, a pressure plate I2, and a driven element I3 having friction facings I4 adapted to be engaged between the liywheel II and pressure plate I2 respectively. t Suitable means, located either in the clutch or externally of the clutch, may be provided for urging the pressure plate I2 toward the iiyvvheel II for clutch engagement. The clutch incorporates a plurality of radial levers I5 which may function either to Withdraw the pressure plate from its clutch engaging position against the pressure of engagement springs incorporated in the clutch, or to transmit the pressure of a remotely located spring to the pressure plate, it being immaterial to the present invention whether the levers are release levers or engagement levers. The levers shown in thev example selected .for illustration herein happen to be designed for transmitting pressure to rather than relieving pressure from the pressure plate.

Referring now to Fig. 2, the cover I includes a rear wall I6, a circular outer peripheral wall I1, and an inner axial wall I8 forming roughly a channel-shaped cross-section, and dening, in conjunction with the flywheel II, an annular chamber C, in which the ring-shaped pressure plate I2 is accommodated. The peripheral wall I1 terminates in an outwardly turned peripheral flange I9 which is preferably polyhedral in shape as shown in Fig. l, to provide corner regions which are indented axially to form lands engaging the flywheel II and securedthereto by suitable securing elements such as cap screws 2| (Fig. 4). Thus the flange I9 is slightly spaced axially from the flywheel II so as to permit air to ilow from the center to the periphery of the clutch through the pressure plate chamber C.

The levers I5 extend through openings 22 in the inner wall I8 of the cover, the outer end regions thereof being indicated at 23.

Drive is transmitted from the cover I0 to the pressure plate I2 through the medium of thin flexible metal straps 24 each secured at one end to the cover as by means of a rivet 25 and at its other end to the pressure plate as by means of a rivet 28. The region of the cover to which the link is secured, is indented as at 26 toward the pressure plate I2, and the region of the pressure plate to which the other end of the link is secured, is in the form of an axially offset ear 21. Thus the driving link is secured directly to the pressure plate and cover respectively and yet is positioned intermediate the two, spaced axially from both. This permits the link to flex freely so as to accommodate relative 'axial movement between the pressure plate and cover plate, without interference with either.

The indented region 26 serves the double function of spacing the body of the link 24 away from the cover III, and accommodating the head of the rivet 25 so that the latter does not project beyond the plane of the rear face of the cover.

The rivet 28 has a head in the form of a retainer cup 29 of drawn sheet metal, the edge of which is flanged outwardly as at 3| to coact with the cover in limiting separation of the cover and pressure plate. The ear 21 gives access to both ends of the rivet for the upsetting operation which is necessary in securing the parts together, a notch 4I) being provided in the periphery of the pressure plate to accommodate the end of the rivet.

The flanged peripheral region I9 of the cover II is formed with alternate straight side portions Ilc and arched side portions ISd. Defined between the arched portions ISd. and the iiywheel II are a series of Ventilating openings 39 which provide for ample flow of air over the pressure plate, the entire clutch functioning in the manner of a centrifugal blower to force a circulation of air from the center of the clutch to the periphery. The driving straps 24 are accommodated in the straight side portions of the cover, being thus disposed circumferentially intermediate the arched portions I9d. One advantage in this arrangement arises from the fact that the straight side portions are inherently stronger than the arched portions, and the weakening effect of the opening 30 is therefore of less moment where the opening is in the straight side portion. Another advantage of the arrangement has to do with the balancing of the pressure plate by drilling holes as for example the holes 31 shown in Fig. 4, in bosses 38 provided in the edge of the pressure plate for that purpose. Access to the bosses is provided by the openings 39. In order to facilitate the balancing operation, it is desirable to have the bosses 38 as evenly distributed around the periphery of the pressure plate as is practicable under the circumstances. Consequently the bosses are located near the ends of the openings 39. In some cases it may be necessary to drill quite deeply before a balance is obtained. If the driving links were disposed in the openings 39, this might give rise to the necessity for drilling into one of the rivets 28 by means of which the links 24 are secured to the pressure plate. This of course would weaken the driving connection between the link and the pressure plate and would therefore'be undesirable. The location of the driving straps intermediate the arched p0rtions I9d avoids this problem.

It is contemplated that the driving links may, in addition to their main function of transmitting torque, be also adapted to serve as retractor springs. To this end, they may be made of spring metal, given an initial shape such as that shown in Fig. 5, and assembled under pre-tension in such a manner as to yieldingly urge the pressure plate toward released position. When thus assembled the links are preferably straight as shown, so as to avoid the development of axial components of torque load opposing the pressure of the engagement spring.

I claim:

l. In a friction clutch, a flywheel and a pressure plate between which a driven plate is adapted to be engaged, a cover attached to the flywheel and forming therewith a chamber in which the pressure plate is enclosed, said cover having a peripheral region formed with circumferentially spaced arched portions, defining with the iiywheel a series of Ventilating openings, and a flexible driving strap disposed between the cover and the pressure plate, extending generally circumferentially, attached at its respective ends to the cover and the pressure plate, and positioned circumferentially intermediate a pair of said arched regions.

2. In a friction clutch, a flywheel and a pressure plate between which a driven plate is adapted to be engaged, a cover attached to the flywheel and forming therewith a chamber in which the pressure plate is enclosed, the peripheral region of said cover being formed with circumferentially spaced axially arched portions defining with the flywheel a series of Ventilating openings, and a series of flexible driving links positioned circumferentially intermediate said arched portions and each disposed between and attached at its respective ends to said cover and pressure plate.

3. In a friction clutch, a iiywheel and a pressure plate between which a driven plate is adapted to be engaged, a cover attached to the flywheel and forming therewith a chamber in which the pressure plate is enclosed, the peripheral region of said cover being formed with circumferentially spaced axially arched portions defining with said flywheel a series of Ventilating openings, the regions of the cover intermediate said arched portions being substantially channel shaped in cross section, and a series of flexible driving links enclosed in said intermediate regions, disposed between and attached at their respective ends to the cover and the pressure plate, and extending generally circumferentially.

HAROLD NUTT.